Dental appliance



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R. G. CRANE DENTAL APPLIANCE F1166 July 16. 1923 13 Sheets-Sheet l2 R. G. CRANE DENTAL APPLIANCE 13 sheets-sheet 15 Filed July 16. 1.921l

Patented July Z2, 1924.

ROBERT G. CRANE, 0F CHICAGO, ILLINOIS, ASSIGNOR T0 A. C. C' & COMPANY,

' OF CmCGO, ILLINOIS, A. CORPORATON ,OF ILLINOIS.

DENTAL AIFLIANCE.

Application filed July 16, 1921. Serial No. 485,167.

To all lwhom t may cof/wem.'

Be it known that I, ROBERT Gr. CRANE, a citizen of the United States, and a resident of Chicago, in the county of Cook and State of Illinois, have invented certain new and useful Improvements in Dental Appliances, of which the following is a full, clear, and exact specification.

My invention is concerned with dental appliances and more especiallyr with such appliances in a form wherein they are adapted to be grouped in and upon a common pedestal forming a dental unit which places within easy reach of the operator substantially all of the appliances that he needs in working directly upon a patient seated in the customary chair.

To this end my invention is concerned with certain novel combinations of elements employed in such a unit, all of which will be fully described in the body of the specification and particularly pointed out in the claims.

To illustrate my invention, I annex hereto thirteen sheets of drawings in which the same reference characters are used to designate identical parts in all the figures" of which Fig. 1 is a front elevation of the complete unit, with portions of the dental engine bracket and of the table broken away;

Fig. 2 is a top plan view of the same;

Fig. 3 is a top plan View on a larger scale in section on the line3-3 of Fig. 1;

Figs. 4 and 5 are central verticalsections on the lines 4-4 and 5 5, respectively,v

. of Fig. 1;

Fig. 6 is an enlarged detail showing one of the cable returning pulleys and its attached spring;

F'g. 7 is an enlarged detail in central 'vertical section through the top of the pedestal, as seen on the 4line 7 7 of Fig. 8, showing the socket and spindle for the dental engifle:

Fig. 8 is a View in section on the line 8 8 of Fig. 7;

Fig. 9 is a view in section on the line 9 9 of Fig. 7;

Fig. 10 is a detached View of an insulating block as seen looking from-the center of Fig. 9;

Fig. 11 is an enlarged detail of the mountingQ for the motor;

i igs. i2 and 13 are views of'said mounting in section on the lines 12-12 and 13 13, respectively, of Fig. 14;

Fig. 14 is a view in section on the line 14-14 of Fig. 12;v

Fig. 15 is a still more enlarged detail in Vsection on the line 1.5 15 of Fig. 16 showing .one of the contacts;

Figs. 16 and 17 are details in section on the lines 16-16 and 17-17 of Fig. 15;

F1 18 is enlarged detail in section on the .line 18 18 of Fig. 3;

F1g. 19 is a detail 1n section on the line 19 19` of Fig. 20;

Fig. 20 is a detail in section on the line 20 20 of Fig. 18;

21 is an enlarged detail in central vertical section through the air and water valves;

Figs. 22, 23, and 24 are sections on the lines 22 22, 23- 23 and 24--24, respectively, of Fig. 21;

Fig. 25 is a detail in section 'on the line 25-25 of Fig. 26;

Fig. 26 is a central vertical section through the reducing valve for the compressed air Supply;

Figs. 27 and 28 are vertical sections on the lines 27 27 and 28 28, respectively, of

Fig. 26;

Fig. 29 is a top plan view of the hot water spray bottle and its connections;

Fig. 30. is a side elevation of the same;

Figs. 31 and 32 are details in section on the lines 31 31 and 32-32 of Fig. 29;

Fig. 33 is a central vertical section through the air filter;

Figs. 34 and 35 are vertical sections on the lines 3434 and 35-35 of Fig. 33;

Fig. 36 is a central vertical section on an enlarged scale through the strainer for the water supply;

Figs. 37, 38 and 39 are sections on the lines 37 37, 38 38 and 39 39 of Fig. 36;

Fig. 40 is a longitudinal section through the hot air syringe and a part of its connected exible tubing;

Figs. 41 and 42 are sections on the lines 41-41 and 42-42, respectively of Fig. 40;

Figs. 43 and 43a (Sheet 10) are longitudinal sections on an enlarged scale, through the examination lamp and its holder: and

Figs. 44, 45, 46, 47 and 48 are details o a part of said holder.

lfn carrying out my invention in its preerred orm, l employ a six-Sided hollow pedestal 50 (see Figs. 1 to 4, inclusive) taper- Y:lng from the bottom toward the top, Vand secured on a hexagonal base piece 5l, having an opening 52 therein, through which the necessary water, compressed air and gas pipes, and electric cables may be lntroduced to the interiorof the pedestal. In the back wall, I place the removable panels 54 and v55 and in the front wall the removable panel 56 vsecured by screws, or otherwise, as may be desired. In a suitable aperture in the front wall 57, I place a control box containing two rheostats 58 and 59 (to be further described hereinafter) for'the hot air syringe 60 and the mouthlamp 61'which, when not in usc, are seated in the sockets 62 and 63 extending inwardly at an angle to the perpendicular into the offset 'ortion 64 of the pedestal, the top of whic portion is closed by the cover plate 65. The water syringe 66 is seated in a similar socket'67 1n the same cover plate 65. Above the rheostats is an overflow basin or finger bowl 68 preferably formed of opalescent glass, containing in its'elevatedrear port-ion 60 (which projects into the bottom of an openingin the wall 57) a seat 70 for a glass 71, (see Figs. 1 and 4) whichcenters beneath the nozzle 72 projecting downwardly from the water valve casing 73 (see Fig. 4) which valve is of any desired construction and is controlled by the knob 74, the front of the valve casing being passed through and secured in the wall 57. A canopy 75, also preferably comosed of opalescent glass, overhangs the seat 0 and is provided at its lower end with an offset flange 76 cooperating with the rear portion 69 to position properly the cooperatmg parts. Beneath a similar canopy 77- located in a recess formed in the wall 57 is secured a horizontal plate 78 having in the front thereof a pair of inclined sockets 79 and 80 for a pair of spray bottles 81, only.

one of which is shown, or for a spray bottle and a hot water glass, as may be desired, and in the rear portion thereof behind the socket 79 a smaller socket (not shown) for the compressed air tube 82 adapted to be attached to either spray bottle 81, as hereinafter described. In a circular recess 83 in the top of the wall 57 is a pressure gauge 84 showing the air pressure in the tube 82 for the spray bottles 81. In the small horizontal top of the pedestal I form a recess closed by the socketcasting plate 85, in which turns the spindle 86 of the fork 87 which supports, in a manner to be hereinafter described, the bearing supports for the customary dental electric motor 88. j

On the adjacent face 89, see Fig. 1, I place a socket 90 for a connections plug (not shown) of a customary construction carrying a cable connected to the customary foot control box (not shown), which may be of any well known construction, n which edals are provided to start, stop and regulate' the s eed of the motor or engine 88. Branching off from the junction of the face 89 and the adjacent face 95 is the hollow bracket 96 carrying the spittoon bowl 97 which may be of any well known construction with the waste water draining back into the pedestal through a pipe concealed in thebracket 96, and with the Water supply pipe (not shown) controlled b the valve 98 leading from the interior of the pedestal to the interior of the spittoon concealed by the porcelain cover strip 99. The to of the small offset 100 is closed by! the p ate 101, having an elongated aperture 102 (see Fig. 20) for the saliva ejector tube 103, rto be more fully described hereinafter. the face 89 is located a push button 104 to At the top ofv close an electric circuit (not shown) to a buzzer or call-bell to summon an assistant.

(see Fig. 4) which through the action of the water supplied'thereto creates an air suction through the saliva tube 10S-to draw oil' the saliva through the yejector tube'110 placed in the top of the tube 103.

The rear .face 111 of the pedestal is composed mainly of the two removable panels 54and 55 previously mentioned, the lower panel 55 having a circular aperture 114 therein to give access to the water strainer `to be subsequently described. The upper panel 54 is preferably hinged at its lower end and is held closed by the turn-button 115 at its upper end. A knob 116 connected to a rod 117 (see Fig-4) sliding through the panel and carrying a water heatlnglincandescent lamp 118 serves to regulate the degree of heat .applied to the spray bottles 81A (or to the spray bottle and a warm water gla, not shown, which may be substituted for onev of the spray bottles if preferred by moving the light nearer to or Ifarther rom the bottles. A pull chain 119 passing through an aperture inthe panel113 and connected to the switch of the lamp 118 serves to light it when desired, and a turnbutton 120 mounted in the lower part of the panelV operates a switch which turns the sa? A At the bottom of the face 95 is a valveii."

currenton to and off of all of the electrical they are composed and adding to the beauty y of the unit.

On the side face 123, at the bQtQm', is Secured the removable cover l124 for the air filter 125 to be fully described herelnafter. Above the level of the linger' bowl 68 1s pivoted the arm 126 which has the table arm 127 pivoted to its outer end, said outer end` havin a Bunsen burner 128 supplied with gas t rough a ipe (not shown) extending up through t e interior of the ped- `estal and joined to an extension pipe (not shown) enclosed by the arm 126. A socket;`

129 (see Fig. 1) carried on the outer end of the arm 127 has journaled therein tle\ downwardly extending bearing stud 130 for the six-sided table 131 for dental tools, said table having thelange 132 on 1ts eriphery with its upper edge waved, as s own, to hold the dental tools from movement there- A supplementary flange 133 parallel to one of the six sides, and rising a little higher, furnishes an extra support for tools for wax impression, or any materials suspended therefrom, to keep said material olf of the table. Above the arm 126 is located the valve 134-connected with the supply gas pipe in the pedestal to regulate the flame of the Bunsen burner 128.

rI'he remaining face 135 carries the valve handles 136, 137 and 138, connected respectively to a pressure reducing valve (See F1 26) to be subsequently described, whic regulates the pressure of the a1r whiclrcan be delivered to the hot air and watersyringe valves respectively, these last mentloned valves (constructed as shown in Fig. 21) being controlled by the handles 137 and 138. Above these valves is the previously mentioned offset 64 containing the sockets 62, 63 and 67 for the hot air syringe 60, the mouth lamp 61 and the water syringe 66.

Having now described the general layout, l will take up the various details beginning with the wiring and mounting of the electrical engine equipment; following that with the wiring and electrical connections for the novel hot air syringe and mouth lamp. After the electrica-l equipment, the compressed air appliances, including the reducing valve, the hot air syringe and spray bottle appliances will be considered. After these, the water appliances, etc.

The twol wires carrying the current at 110 volts enter preferably through the opening 52 in the base 51, and are carried by a pair of armored flexible conduits (not shown) to the bottom of the fuse box 107 (see Fig. 4) containing a pair of fuses (not shown) which are replaceable through the removable cover 106 (see Fig. From the fuses the supply wires 140, enclosed in an insulating tube. pass through the section 424 of the tube to a terminal block 424u secured on the back of the removable panel 54, whence they pass through the snap switch 120 on said panel by which the circuit is opened when the unit is not in use. From the snap switch 120 are the leads to a bus-bar (not shown) in. the casing 424b on the rear of the panel 54 and from this bus-bar the wires (not shown) for the dental engine 88 pass back down through the section 424 and through the branch cony duit 141 to the junction box 142, into which extends the .contacts of the connections plug previously mentioned as not shown and carrying the engine wires to the foot control box (not shown) and back to the junction box. From the lower part of the Junction A clips 147 and 148, to the four binding posts 149, 150, 151 and 152 (see Figs. 7 to 10) secured in the bottom of the channel of the insulating block 153 fastened by the screws 154 to one side of the sleeve or socket 155 extending downward from the previously mentioned socket casting plate adjacent a rectangular opening 156 in said sleeve, into which opening fit the flanges 157 of the block 153, which flanges also extend into a similar opening 158 in the insulating sleeve 159 seated in the socket 155. The spindle 86 turning in the insulated socket carries' four insulated collector rings'160, 161, 162 and 163, connected by the spring contacts 164, 165, 166 and 167 with the binding posts 149, 150, 151 and 152. Extending up through the hollow spindle 86 and connected respectively to the rings 160, 161, 162 and 163 are the wires 168, 169, 170 and 171 for the field and armature circuits of the motor 88, the wires 168 and 169 extending through the inverted U-shaped tube 172 (see Fig. 1)

lOO

secured in one branch of the fork 87, while I the wires 170 and 171 extend through the similar tube 173 secured in the other branch of the fork 87 by the set screw 174 (see Fig. 5) so that by loosening the screw, the

tube 173 can be turned-away from the tube y 172 to remove the motor or give access to the connections. The other ends of the tubes 172 and 173 are secured in symmetrical socket pieces 174 and 175 (see Fig. 14) having the opposed annular flangesv 17 6, and 177 on which is pivoted the extension 178 of the casing of the dental .engine 88. The two socket pieces 174 and 17 5 are removably held in position so the engine can swing a few degrees in a vertical plane, on the lianges 176 and 177, by a bolt 179 having the milled head 180 and passing through the socket l piece 1.75 and threaded into the piece 174 and 171 (see Figs. 12 and 13).

Aand by thesmaller 'screws bolts 181 and 182 passed through apertures in the socket piece 175 and threaded into the piece 1.74. A lug 183 projecting from the extension 178 bet/Ween the screw bolts 181 and 182, as seen in Fig. 12, limits the swinging of the engine 88 in a vertical plane, while permittlng Llit to swing as much as. may be necessary to move the rotating toolr not shown) carried in the customary manner by the customary frame 184 (seen broken ofi' in Fig.. 1) and driven by the customaryv belt (notV shown) driven'by the shcave 185 on the arf mature shaft of the engine 88. The socket pieces 174 and 175'have recesses for the 1nsulating disks 186 and 187V (see Fig. 1 4) therein, and on the outer surface of the disk 1 86 is a pair of contact segments 188 and 189 connected to the wires 168 and 169, while'a I yof a metal stud, sliding in a sleeve 196,

having reduced ends entering the apertures l -in the vdisks 1934 and 194, one end being open to receive the plunger 195, the other being "closed to confine the helically expanding spring 197, which serves to force the plunger 195 against its associated contact 188, 189, 190 or 191, as the case may be, with a 'yielding pressure. A slot 198'in one Vside permits the entry of the non-insulated end of the wire 199 associated with it and which extends to or from the armature or the field winding,`as the case may be, of the motor 88. An annular groove 200 in the sleeve 196'carries a split ring 201,- which is turned to hold the wire 199 in place after the parts are-assembled. By the connections shown` it will be obvious that the engine 88 will run in any position to. which it can be moved, either by swinging it in a vertical plane about the bolt 179 as a center, or in a horizontal plane. about the'spindle 86.

Also extending upward from the junction box 142 is a conduit `202 (see Fig. 5) carrying a pair of wires to the transformer 203, suitably secured on the inner wall of the pedestal, and serving to reduce the 110 volt current to 16 volts. A conduit 204 (mostly broken away in Figs. 4 and 5) carries two pair of wires (not shown) from the low voltage side'- of the transformer to the rheostats 58 and 59 mounted in the casing 205 secured on the inner front wall of the ped- ,can be accuratel '-controlled, it of course being understoo that both operate with lawer voltages, the" rheostats vbeing scaled 0"from 1 to 7 volts. rheostats may be of any desired form and arranged vin any desired manner. At the bottom of the rheostat casing 205 are four 'low voltage fuses 212 arranged side by side (one being seen in Fig. 4) connected at one side'to their respective rheostats and at thel other side to four wires (not shown), two being placedl in a cable 213 suitab y led from the fuses 212 connected to the mouth lamp rheostat 58 and securely looped over the sali-va ejector apparatus 109, and thence c descending about a pulley 214 (shown on a larger scale in Fig. 6) and ascending to the mouth lamp socket piece 215, shown in de` tail in Fig. 43, As it is desired to draw the cable 213 automatically back through its socket 63 into the interior of the pedestal as soon as it is released, the pulley 214 has attached to the bottom of its skeleton wire casing 216 which keeps the cable in place, a helical contractile spring 217, the other end of which is secured to a metal strip 218 ex-v tended acrossthe openin 5 2, and secured to the base plece 51. As t ere are four other similar cables and sheaves to be held in vplace in the pedestal and returned by four -other similar springs, it is obvious that these springs have a very important 'function and operation, theyserving to permit the ready Withdrawal of the mouth lamp, hot water syringe, cold water syringe, the hot water spray bottle and the saliva ejector one by one, as needed, and then automatically to return them when released, without the five cables either becoming entangled, or clashing with the other parts..

The two wires 219 and 220 in the cable 213, as seen in Figs. 43 and 43a, Sheet 10,-

The resistance in theestal, and having-the knob 206 on a shaft nol portion 233 adapted to be engaged by the curved end of the spring 229 when the switch sleeve 232 is shoved outward on the rubber tube 215 to bring the inner end of the screw 234 extending through the slot 235 into engagement with the outwardly bent -portion of the contact 229. When the sleeve 232 is shoved back, the lamp 236 is extinguished. The end of the hard rubber tube 215 has its `outer end reduced, and screwed on said reduced end is the metal sleeve 237 having its outer end internally threaded to receive the threaded end of various implements adapted to co-operate therewith. With .the mouth lamp shown the holding block 238 has the reduced portion 242x slipped thereon, and held by the bayonet joint to be described A(see Figs. 44 to 48). It also has an offset portion 239 which has the split sleeve portion 240 externally threaded to receive the nut 241 which, when it is screwed inwardly, serves to clamp the split sleeve portion 240 on the end ofV the rod 242 inserted therein and carrying on its outer end the mirror 243. To receive the diametrically opposed pins 242a projecting radially from the reduced portion 242x, the sleeve 237 has the diametrically opposed slots 243 in its outer end each with the offset- 243L therein. A split ring 244 with the pin 245 projecting inwardly into one of the slots 243 fits over the sleeve 237. When the mouth lamp is to be used the sleeve 232 being shoved back to open thecircuit, the ring 244 is shoved back until the pin 245 1s not in the slot 243. The portion 242X is then slipped into the end of the sleeve 237 until the pins 242a are opposite the offsets 243a when it is turned to bring the pins 242 into the offsets. When the sleeve v232 is shoved out to close the circuit, the ring 244 is shoved outas far as it can go, in which position the pin 245 is in the slot 243 opposite the offset 243a so that the lamp holder cannot possibly be pulled out accidentally. The tube 231 ypasses through the body of the block 238 and lis partly surrounded by the hard rubber sleeve 247, the enlarged outer end of which forms the socket for the lamp 236. This is of a known construction. Une terminal of the'lamp engages the sleeve 231 and the other, the rod 248, carries on its end the coiled expanding spring 249 which engages the rod 230. A sleeve 250 having its smaller end fitting friction tight on the sleeve 247 has its longer end slanting, as seen, to form a shade for the lamp.

The other two wires 251 and 252 from the loT voltage fuses 212 extend to the contact screws 253 and 254 (see Fig. 42), which are threaded through the hard rubber insulating sleeve 255 surrounding the fiber insulating tube 256 which is fastened over the tube 25 terminating in a nipple 258. This tube 257 has the other threaded end 259 much 253 and 254 (see Fig. 42) serve to secure the wires 251 and 252 thereto, and the inner ends of these screws 253 and 254 engage the small contact plates 264 and 265 held in the grooves of the insulating tube 256. The ends of the plates 264 and 265.have the wires 266 and 267 solderedthereto, and these wires are coiled in separated helixes Iabout the flexible compressed air tube 268 secured on the nipple 258. Another larger flexible insulating tube 269 encloses the wires 266 and 267, which in turn enclose, as it were, the air tube 268. This tube 269 runs around the sheave 270 (see Fig. 4), mounted just like the sheave '214, and has its other end extending up through the socket 62 provided for the hot air syringe 60, the detailsof which are shown in Figs. 40 and 41.

The tube 269 passes through the helically coiled rotecting spring 271, which is supported y having its inner end fitting friction tight in the metallic tube 272, which has secured therein at about its middle the short hard rubber cylinder or disk 273 throu h the center of which passes the brass tube 2 4 having its upper end screwed into the metal valve block'27 5. This tube 274 has its outer surface covered with insulation; and its lower end has the air tube 268 drawn over it so that the compressed air carried thereby is delivered to the passage 27 6 extending to the center of the valve block 275 which has the customary tapered valve member 27 7 fitted therein. The block 27 5 has the extension 278, externally threaded, to have the tapering sleeve 279 screwed thereon, and this into the contracted internally threaded portion 287 of the extension 280. The block 27 5 has a passage or port 288 from its center through the extension 278, and the valve member 277 has the passage 289 therethrough connecting the passages 276 and 288 when it is turned to the operative position. This member 277 has secured thereto by the screws 290 the complementary hard rubber cups 291 and 292 which are secured to each other by the pin 293, and which embrace most of the valve block 275. The

cups 291 and 292 have their yexposed .Ilpe-A with the contact strip 294 extended therethrough and supported thereby with its free end adjacent the contact clip 295 supported by the spring 296, which in turn 1s supported from the disk 273 and has its free end curved as shown and extendingto the shoulder 297 in the cup 291 so that when the cup is turned to open the valve 277 to the passage of the compressed air, the shoulder 297 will bend the spring 296 so as to bring the clip 295 into electrical contact with the contact 294 closing .the circuit throu h the heating element 281 to warm the air flowing past it. The contact clip 295 is soldered to the wire 298 which is guided in a channel formedvin one side of the block 275 to the hard rubber insulating block 299 seated vin the extension 278 where it is connected to one terminal of the heating element 281 which is screwed into the metal plug 300 centrally located in the block 299. The wire 267 extends through the disk 273, and is ided in a similar channel on the other si e of the block 275 to the other terminal of the heating element 281.

I attach much importance to the feature of passing the air through a central tube, which together with thewires, are surrounded by the external tube, as this insures that the wires can never be short circuited by any moisture which might be carried into and left in the central tube by the air passing therethrough.

The compressed air for operating the hot air syringe and the hot water spray bottle is. supplied as follows: The compressed air is brought into the pedestal by a tube (not shown) which is connected to the lower end of the flexible pipe section 301 (see Fig. 5) which is connected to the rigid tube 302 which opens into the top of the air filter casingv 303 (see Figs. 33 to 35). This cas# ing has the main cylindrical portion with the, outlet connection 304 connected to the outlet pipe 305. Projecting inwardly and surrounding the outlet is the annular flange 306 externally tapered, which serves to seat the filter cup which consists of the concentric -perforated cylinders 307 and 308 connected y the disk 309 having the annular flange 310 on its inner face, to the parallel faces of which the ends of the cylinders 307 and 308 are secured. The annular space between these' cylinders is filled with -cotton 311 which serves as the' air filtering medium. The head or disk 309 is provided on its outer face with the annular flange 312 within which is seated one spire of the helically coiled expanding spring 313, the other end of which is seated in the circular recess 314 in the inner facelof the closure'cap 124 having the three ears 316 which are apertured to pass over the bolts 317 passed through ears 318 on the adjacent end of the casing 303 and screwed through the side 1 23 of the pedestal. Cap nuts 319 hold the cap 124 1n place, and the closure is made air-tight by the soft rubber ring 320 seated on the annular iange 321 formed on the enlarged vsimilar end of the casing 303 which fits in the annular aperture 322 formed in a. thickened portion of the side 123v of the pedestal. I preferably secure the spring 313 1n place by a clip bar 323 passed across the flange 312 over a spire of the sprin and fastened by the screw 324. If it is esired to release the pressure in the lter, I provide a threaded port 325 in which is screwed the lug 326 having the shoulder 327 on whic toseat the soft rubber annulus 328 by which the closure is made air-tight.

The ltered compressed air passes upward through the pipe 305 to the inlet nipple 329 (see Flgs. 26 to 28) of the reducing valve casln'g 330, which nipple has the passage therethrough with a reduced portion 331 providing an annular seat 332 against which I preferably place the screen 333 held in place by the split expanding ring 334. The port or passage 331 is closed by a cylindrical valve 335 sliding in the circular passage 336 through the thickened axial portion .presses the helically coiled ex anding spring 341 confined in the hollow o the valve and the passage 336. One or more cushion disks 342 are placed on the other side of the septum and are engaged by the pin 343 extending from the disk 344 held against the disk 345 which is clamped against .the center of the diaphragm 346 by the nut 347 screwed on to a threaded extension 348 of the pin 343. The nut 347 has the annular flange 349 which positions one end of the helically expanding spring 350, the other end of which is positioned by the ilange 351 ofthe disk 352 which has on its opposed face the semispherical re' secured. lThe diaphragm 346 is of corrugated metal covering the shallow cylindrical recess 355 in the casing 330, and is clamped in place between the main body of the casing 330 and the supplemental casing 356 by the screws 357. This supplemental casing has the cylindrical extension containingv the spring 350 and having the threaded end 358 screwed into the cap piece 359 seated in a circular aperture in the face 135 and having the annular flange 360 through which the screws 361 pass into the face 135 to secure the regulating valve in place. From the recess 355 a nipple 362 extends downwardly to form a connection with a pipe leading ultimately to the hot water spray bottle, and another nipple 363 extends upwardly for the connection with a pipe leading ultimately to the hot air syringe.

The action of this reducing valve will be readily apparent: By turning the handle 136, the tension of the spring 350 on the diaphragm can be regulated to control the pressure to which the compressed air is to be reduced, and it will be obvious that when the pressure falls in the cavity 355 the spring 350 acting on the diaphragm 346 will move the pin 343 to slide the valve 335 to admit compressed air to theI cavity 355 through the passage 331 until the pressure of the'air moves the diaphragm back against the tension of the spring 350, the general action being that of an ordinary reducing valve.

From the nipple 363 the pipe 364 (sec Fig. 5) passes to the control valve 137 for the hot air syringe supply, which valve is Shown in detail in Figs. 21 to 24. The handle 137 has its threaded and socketed end 365 passed through the unthreaded circular aperture in the cover disk 366, secured by the screws 367 tothe annular flange 368 on the cup-shaped outer end 369 of the valve casing which outer end lits in the circular aperture 370 formed in the section 135 of the pedestal casing, where it is held by the screws 371 passedthrough the flange 368 into the pedestal. The handle 137 is held in place, but free to turn, by the nut 372 secured on the reduced end 365 and held from turning loose by the washer 373 secured on the reduced end and having portions. of its ends turned over the six-sided nut 372, as seen in Fig. 22. The rectangular socket in the reduced end 365 is partially occupied by the rectangular end 374 of the valve stem 375 which turns and slides in the packing gland 376 screwed into the externally and internally threaded nut 377, which in turn is screwed into the bottom of the cup portion 369 of the valve casing, a packing ring 378 being placed between the bottom of the cup portion and the flange 379 of the nut 377. The internal diameter of the nut 377 is reduced, forming a shoulder 380 against which the packing washers 381 are forced by the gland 37 6. The reduced portion 382 is internally threaded to cooperate with the threaded portion 383 of the valve stem 37 5, which stem terminates in-the enlargement 384 having a seat in its end for the rawhide disk 385 which cooperates with the nipple 386 formed in the bottom of the main cavity in the valve casing. By turning the handle 137, it will be obvious that the valve formed by the disk 385 cooperating with the nipple 386 may be adjusted as deslred to regulate the pressure of the air that can pass the said valve, it reaching it through the pipe 364 held to the nipple 387 by the nut 388 and the angular passage 389 through the. nipple and valve' casing. A passage 390 leads from the nipple 386 to the nipple 391 to which the pipe 392 is screwed by the nut 393. This pipe 392 leads to one end of the U-shaped tube 261,' (see Fig. 4) thus supplying compressed air to the hot water syringe, while the pipe 394 connects the other end of the U-shaped tube 261 to the pressure gauge 84 seated in the recess 85 in the top of the pedestal, which thus indicates the pressure secured by adjusting the valve 137. A

The tube 82 (see Figs. 4 and 5) connected to the nipple 362 of the pressure reducing valve 136 extends downward around the sheave 395 mounted and operating in the same manner as the sheave 214, and thence upward through the smaller socket (not shown) in the plate 78 back of the socket- 80, and is connected to the spray bottle 81, as shown in Figs. 29 to 32, where it will be seen that the end of the tube 82 has a nipple 396 connected to it and held by the connecting nut 397 in air-tight engagement with the seat 398 formed in the bottom piece 399 of the valve casing 400 upon which it is screwed. The piece 399 has the assage 401 therethrough and also supports tlie helically coiled expanding spring 402, the other end of which extends into the hollow body 403, which carries the leather disk 404 in its upper end which is normally held seated upon the reduced lower end of the tube or valve casing 405 which is held air-tight in the top of the casing 400. A valve 406 slides through the gland 407 screwed in the top of the casing 400 and the packing 408 pressed by it against the top of the tube 405. The bottom of the valve 406 seated on the disk 404, and when it is pressed down by the operating lever 409 fulcrumed at 410, the compressed air passing around the valve 406 passes through the port 411 'in the casing 405 and on and up around the reduced portion of the casing 405 into the passage 412 extending through the female connection 41.3 screwed through the bearing bracket 414 and into the casing 400.

The spray bottle 81 is of known construction and is provided with the male connection 415 having the tapered nipple 416 fitting airtight into the correspondingly tapered seat 417 in the connection 413. Quickly and easily to connect and disconnect the spray bottle from the valve, I pivot on the top of the connection 413 by the screw 418 a thumb piece 419 carrying a cam groove 420 therein cooperatingl with the screw 421 

